首先利用水热法在硅基底上生长MnO2纳米片,再通过磁控溅射在其表面沉积Al,制备出具有纳米结构的MnO2/Al含能复合物.利用SEM、XRD、XPS和DSC对样品的形貌、结构和热反应特性进行表征.结果表明:生长于硅基底上的MnO2纳米片交错形成多孔纳米墙结构,其后沉积的Al"植根"于纳米墙;纳米结构MnO2/Al复合物的反应起始温度为510°C,Al熔化前的放热量达到2380J/g.另外,该复合物在表面沉积碳氟化合物后表现出疏水性,表明其具备潜在的长期储存性能.%In this study, a nanostructured energetic composite that composed of MnO2nanosheets with root-embedded Al on silicon wafer was prepared and investigated. Porous MnO2nanosheets were synthesized on the silicon substrate via a hydrothermal method, followed by the magnetron sputtering of Al. The morphology, phase and composition of MnO2/Al nanostructured energetic materials were characterized by SEM, XRD, and XPS. The heat-release characteristics were also studied by DSC. Thermal analysis shows the MnO2/Al nanostructured energetic materials have a low onset reaction temperature around 510°C and a relative high reaction of heat about 2 380 J/g before Al melting. Hydrophobicity is achieved by coating a layer of fluorocarbon, indicating the possible long-term storage ability.
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